A rock falls from a vertical cliff that is 4.0 m tall and experiences no significant air resistance as it falls. At what speed will its grav

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A rock falls from a vertical cliff that is 4.0 m tall and experiences no significant air resistance as it falls. At what speed will its grav

Question

A rock falls from a vertical cliff that is 4.0 m tall and experiences no significant air resistance as it falls. At what speed will its gravitational potential energy (relative to the base of the cliff) be equal to its kinetic energy

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Physics RuslanHeatt 4 years 2021-08-26T11:04:36+00:00 2021-08-26T11:04:36+00:00 1 Answers 11 views 0

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Orla · Answer 1 · 2021-08-26T11:05:51+00:00

Orla

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2021-08-26T11:05:51+00:00 August 26, 2021 at 11:05 am

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Answer:

About 6.26m/s

Explanation:

$mgh=\dfrac{1}{2}mv^2$

Divide both sides by mass:

$gh=\dfrac{1}{2}v^2$

Since the point of equality of kinetic and potential energy will be halfway down the cliff, height will be 4/2=2 meters.

$(9.8)(2)=\dfrac{1}{2}v^2 \\\\v^2=39.4 \\\\v\approx 6.26m/s$

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A rock falls from a vertical cliff that is 4.0 m tall and experiences no significant air resistance as it falls. At what speed will its grav